Jessica Marie González Vargas: Can you split the wave function of an electron and catch their "pieces"?

Technology for the passing of the years has been improved with more efficient and has advanced greatly on the molecular composition of atoms. We understand that each atom is composed of electrons, protons and neutrons, and these three have the same amount. As you know when an atom loses an electron it becomes a positive ion because it will have greater protons than electrons, and so vice versa when it becomes a Negative Ion. With a brief understanding of an atom we can understand how it was developed the following experiments. 

Each proton and electron is composed of a material that generate their molecular composition in traveling wave orbiting ball. The Brown University at Rhode Island, United States has made some experiments directed by the Professor of Physics, Humphrey Maris, the division of the waves traveling in the molecules of the electron and the curious thing is that they have been able to corrupt the orbital wave electrons. We know that these atoms are indestructible and will only be transferred but they suggest that the wave function of an electron can be broken into pieces and those pieces can be trapped in tiny bubbles of liquid helium.

Scientists have wondered for years by the strange behavior of electrons in liquid helium cooled to near absolute zero. This is due as when an electron enters the liquid helium surrounding repels helium atoms, forming a bubble in approximately 3.6 nanometers in diameter. This arises because the atoms begin to lose kinetic energy when the thermal energy is decreased shrinking preventing its molecular composition can be stirred, which lost motion. For this reason, it is said that the cold has a limit, because it determines when molecules move and stop completely. The bubble size is determined by the electron pushing pressure against the surface tension of helium. With the new experiment directed by Brown University in Rhode Island, on the division of waves we can understand what really happens when each molecule plays absolute zero (the maximum freezing) and as its kinetic energy is affected by low temperatures, in this case the cooling ceiling.

In these experiments by Humphrey it was discovered the reason for what happens when an electron has contact with liquid helium and what if take off waves of electrons when exposed to liquid helium. Furthermore, during the experiments could be detected particles 14, plus four additional which frequently appeared in the development of the experiments. The only way that researchers can explain the results is through the "fission" of the wave function. In certain situations, the wave functions of electrons fragment to enter the liquid, and pieces of the wave function of each electron is captured in separate bubbles. Concluding through the experiments directed by Humphrey the behavior of liquid helium atoms, the occurrence when a molecule touches the Absolute Zero and the appearance of the 18 particles found, can be explained and understood by this discovery.